DE903493C - Filters for ultra-high frequencies, consisting of resonance cavities, which are arranged in a waveguide - Google Patents

Description

The invention relates to ultra-high frequencies and more particularly relates to filters for the Range from iooo to ioooo MHz.

In this frequency band, the filters are generally implemented on waveguides and consist of several resonance cavities, which are arranged at suitable intervals and in series or are connected in parallel. In this way, as with circles for lower frequencies, four-pole connections can be created form, the resonance circuits are equivalent, which are made of series or parallel inductors and capacities exist.

With regard to the pass band, the smallest phase distortion in the band, etc., it is from It is of the utmost importance that one can determine the value of the coefficient of excess voltage of the resonance cavities can adjust. For this purpose indukj are in the waveguide at suitable intervals tive obstacles provided, the transmission coefficient of which can be changed.

It can be shown that in the case of a resonance cavity consisting of a waveguide section, the length of which is close to half a wavelength, and which has an obstacle at each end, the transmission coefficient of which is t = sin U , the excess voltage coefficient Q is inversely related to f / ² changes. One must therefore decrease U if one wants to achieve a high value of Q.

If the two obstacles are not the same, with a very small difference ε between the corresponding values of U at resonance, on the other hand the reflection coefficient r is through

given the expression r = - == -. It follows from this that ε must be made as small as possible in order to be strong

Avoid reflections and the stationary waves that cause them.

The current filter problems place very stringent demands on the designer posed. The need for strong off-band attenuation compels it to be used of cavities with a strong stress increase, e.g. B. of the order of So. On the other hand, in order to have a proportion set of the stationary waves under i, i

To reach Ir <-I, one must remove cavities.

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form, in which the proportion sets of the stationary waves at the resonance frequency are negligible Ir <-) and which have high voltage peaks, whose - value with great accuracy, z. B. can be regulated in the order of magnitude of Vso. For this purpose, obstacles in which U is small must be used, and it is also required that the value of U can be set with an accuracy of the order of V100.

However, such accuracy cannot be achieved with the current state of the art. The obstacles commonly used are of two types:

1. an inductive diaphragm, which consists of a metal surface consists, which is perpendicular to the longitudinal axis of the waveguide and one to its smaller Side has parallel slot, or

2. a metal rod which is arranged in the middle of a cross section of the waveguide and its shorts long sides.

With a small value of U, the first embodiment only provides sufficient accuracy if large complications are accepted, while the second embodiment is far too critical with regard to the diameter of the rod and its position.

The invention has a new arrangement of inductive obstacles for ultra-high frequency filters for the object, which avoids the deficiencies mentioned. According to the invention, an inductive obstacle, which can be set very easily and with great accuracy, in a rectangular waveguide traversed by H _{0 1} waves in such a way that several metal rods are arranged in a waveguide cross-section parallel to its small sides, which short-circuit the long sides of the waveguide. One of the rods can be arranged in the middle of the cross section, while the remaining rods, which are arranged symmetrically or asymmetrically with respect to the first, are more or less close to the opposite ends of this cross section. The regulation takes place through a suitable choice of the diameter of the rods and by moving one or more rods in the appropriate direction.

Further details and advantages of the invention emerge from the description on the basis of FIG Drawing. In the drawing shows

FIG. 1 shows a diagram to explain the invention, FIG. 2 shows an exemplary embodiment of the invention. Fig. 1 "is a section of a wave waveguide G with a rectangular cross-section. If such a waveguide is traversed by H _{0 x} waves, the change in the electric field E along a small side of the waveguide or itr-axis of FIG half a sine curve as indicated by dash-dotted lines The field shows a maximum in the middle of the waveguide (y-axis) and is zero at the ends A and B.

Under these circumstances, becomes an obstacle, which consists of a metal rod, that is, the waveguide is according to the B field parallel to the small sides arranged and whose long sides shorts, in. The center 0 bring about maximum effect. If one removes the stick from O , this effect is diminished, only to disappear completely at A or B.

According to the invention, in order to achieve a high level of accuracy and adaptability of the control using this principle, a plurality of metal rods T ″ are arranged in one and the same cross section of the waveguide G , as is shown, for example, in FIG the center of the waveguide, and the rest can be more or less close to the ends A and B of the cross-section, depending on the desired value of the coefficient of stress increase the changes in the diameters for the value of the transmission coefficient are much less critical for the rods located near the ends A and B than for the rods located in the region of the center O. On the other hand, it is possible to fine-tune the value of U add a rod near the small side of the waveguide as it points in Fig. 2 iert is indicated.

In tests, settings were achieved with an accuracy based on this arrangement as it could not be reached with the known arrangements. This will make the ultra high frequency filter Significantly improved in their effectiveness, while at the same time simplifying their manufacture (lower manufacturing tolerances, etc.).

Claims (1)

PATENT CLAIM: Filter for ultra-high frequencies, consisting of resonance cavities, which are arranged in a rectangular wave waveguide traversed by H ₀ j waves, characterized in that it has inductive obstacles consisting of several parallel metal rods which are arranged in a cross section of the waveguide so that they short-circuit its long sides. 1 sheet of drawings © 5740 1.54